Journal ArticleDOI
A 12-Bit Vernier Ring Time-to-Digital Converter in 0.13 $\mu{\hbox {m}}$ CMOS Technology
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TLDR
A 12-bit Vernier ring time-to-digital converter (TDC) with time resolution of 8 ps for digital-phase-locked-loops (DPLL) is presented, which achieves large detectable range, fine time resolution, small die size and low power consumption simultaneously.Abstract:
A 12-bit Vernier ring time-to-digital converter (TDC) with time resolution of 8 ps for digital-phase-locked-loops (DPLL) is presented. This novel Vernier ring TDC places the Vernier delay cells and arbiters in a ring format and reuses them for the measurement of the input time interval. The proposed TDC thus achieves large detectable range, fine time resolution, small die size and low power consumption simultaneously. A pre-logic unit is developed to measure both positive and negative phase errors for DPLL applications. The TDC achieves a large detectable range of 12 bits with core area of 0.75 × 0.35 mm2 in a 0.13 μm CMOS technology. The total power consumption for the entire TDC chip is only 7.5 mW with a 1.5 V power supply, while operating at a clock frequency of 15 MSPS.read more
Citations
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Journal ArticleDOI
A High-Linearity, 17 ps Precision Time-to-Digital Converter Based on a Single-Stage Vernier Delay Loop Fine Interpolation
TL;DR: A time-to-digital converter architecture capable of reaching high-precision and high-linearity with moderate area occupation per measurement channel with a couple of two-stage interpolators that exploit the cyclic sliding scale technique in order to improve the conversion linearity.
Journal ArticleDOI
A 9 bit, 1.12 ps Resolution 2.5 b/Stage Pipelined Time-to-Digital Converter in 65 nm CMOS Using Time-Register
TL;DR: Compared to other high-resolution state-of-the-art TDCs, the proposed pipelined TDC achieves the best figure- of-merit (FoM) without any calibration.
Journal ArticleDOI
A 1 GHz ADPLL With a 1.25 ps Minimum-Resolution Sub-Exponent TDC in 0.18 $\mu$ m CMOS
TL;DR: An all-digital PLL for wireline applications is designed with a sub-exponent TDC which adaptively scales its resolution according to input time difference, and a replica-based self-calibration scheme is applied to the time amplifier to improve linearity in a wide input range.
Journal ArticleDOI
A 7 bit, 3.75 ps Resolution Two-Step Time-to-Digital Converter in 65 nm CMOS Using Pulse-Train Time Amplifier
TL;DR: A novel pulse-train time amplifier is proposed that achieves linear, accurate, and programmable gain for a wide input range and achieves the fastest conversion rate and the best FoM without any calibration.
Proceedings Article
A 12-bit vernier ring time-to-digital converter in 0.13μm CMOS technology
TL;DR: In this article, a 12-bit Vernier ring time-to-digital converter (TDC) with 8ps of time resolution for digital-phase-locked-loop applications is presented.
References
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Journal ArticleDOI
A high-resolution CMOS time-to-digital converter utilizing a Vernier delay line
TL;DR: Test results show that even higher resolutions can be achieved using the VDL method, and resolutions down to 5 ps are demonstrated to be obtainable.
Journal ArticleDOI
A 9 b, 1.25 ps Resolution Coarse–Fine Time-to-Digital Converter in 90 nm CMOS that Amplifies a Time Residue
Minjae Lee,Asad A. Abidi +1 more
TL;DR: A new coarse-fine TDC architecture is proposed by using an array of time amplifiers and two identical fine TDCs that compensate for the variation of the TA gain during the conversion process, which will improve the linearity further.
Journal ArticleDOI
1.3 V 20 ps time-to-digital converter for frequency synthesis in 90-nm CMOS
TL;DR: A 20-ps time-to-digital converter (TDC) realized in 90-nm digital CMOS is used as a phase/frequency detector and charge pump replacement in an all-digital phase-locked loop for a fully-compliant Global System for Mobile Communications (GSM) transceiver.
Journal ArticleDOI
A Low-Noise Wide-BW 3.6-GHz Digital $\Delta\Sigma$ Fractional-N Frequency Synthesizer With a Noise-Shaping Time-to-Digital Converter and Quantization Noise Cancellation
TL;DR: A 3.6-GHz digital fractional-N frequency synthesizer achieving low noise and 500-kHz bandwidth is presented, which uses a gated-ring-oscillator time-to-digital converter to achieve integrated phase noise of less than 300 fs.
Journal ArticleDOI
A CMOS time-to-digital converter with better than 10 ps single-shot precision
TL;DR: A high-precision CMOS time-to-digital converter IC has been designed based on a counter and two-level interpolation realized with stabilized delay lines that reduces the number of delay elements and registers and lowers the power consumption.
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